In physics (specifically in electromagnetism) the Lorentz force (or electromagnetic force) is the combination of electric and magnetic force on a point charge due to electromagnetic fields. A particle of charge q moving with a velocity v in an electric field E and a magnetic field B experiences a force of (in SI units). It says that the electromagnetic force on a charge q is a combination of a force in the direction of the electric field E proportional to the magnitude of the field and the quantity of charge, and a force at right angles to the magnetic field B and the velocity v of the charge, proportional to the magnitude of the field, the charge, and the velocity. Variations on this basic formula describe the magnetic force on a current-carrying wire (sometimes called ), the electromotive force in a wire loop moving through a magnetic field (an aspect of Faraday's law of induction), and the force on a moving charged particle. Historians suggest that the law is implicit in a paper by James Clerk Maxwell, published in 1865. Hendrik Lorentz arrived at a complete derivation in 1895, identifying the contribution of the electric force a few years after Oliver Heaviside correctly identified the contribution of the magnetic force. (Wikipedia).
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From playlist Physics
Electricity + magnetism = motion, thanks to the Lorenz force. Find out how. https://nationalmaglab.org/education/magnet-academy
From playlist See-Thru Science
Magnetism (8 of 13) Lorentz Force, Calculate Magnetic Force on Charged Particle
Explains how to calculate the magnitude of the force on a charged particle moving through a magnetic field. This force is also known as the Lorentz force. The force is directly proportional to the amount of charge (q), the velocity of the particle (v), the magnetic field strength (B) and
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Magnetism (7 of 13) Lorentz Force on a Charged Particle, Right Hand Rule
Explains how to do determine the direction of the force on a charged particle that is moving through a magnetic field. This force is known as the Lorentz Force. The right hand rule is used to determine the direction of the force. For positively charged particles. Use your right hand and
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Magnetism (13 of 14) The Lorentz Force, Charged Particles in Magnetic Fields
Explains the two cases where there is no force on a charged particle in a magnetic field. The first case is when the charge is placed at rest into a magnetic. The second case is when the charged particle is traveling parallel to the magnetic fie This force is known as the Lorentz Force.
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Magnetism (12 of 13) The Lorentz Force, Charged Particles in Magnetic Fields
Explains how to do determine the direction of the force on a charged particle that is moving through a magnetic field. Due to the magnetic force the particle will travel on a circular path. This is how a mass spectrometer is used to determine the mass of a charged particle. This force i
From playlist Magnets, Magnetism and Charges in Magnetic Fields
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From playlist Relativity
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From playlist Classical Physics by Parth G
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From playlist Magnets, Magnetism and Charges in Magnetic Fields
Magnetism (9 of 13) Lorentz Force, Force on a Current Carrying Wire
Explains how to calculate the magnitude and direction of the force on a current carrying wire in a magnetic field. The force is directly proportional to the current (I), the length of wire in the magnetic field (L) the magnetic field strength (B) and the angle between the wire and the magn
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Lec 6 - Phys 237: Gravitational Waves with Kip Thorne
Watch the rest of the lectures on http://www.cosmolearning.com/courses/overview-of-gravitational-wave-science-400/ Redistributed with permission. This video is taken from a 2002 Caltech on-line course on "Gravitational Waves", organized and designed by Kip S. Thorne, Mihai Bondarescu and
From playlist Caltech: Gravitational Waves with Kip Thorne - CosmoLearning.com Physics
Velocity Selector: An Example Problem
This video presents an example problem for velocity selectors. A velocity selector filters out charged particles with velocities that are not desired. A velocity selector is used as a velocity filter for charged particles to select them based on their speed or velocity. For example, in el
From playlist Magnets, Magnetism and Charges in Magnetic Fields
The Butterfly Effect - What Does It Really Signify?
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From playlist Oxford Mathematics Public Lectures
Lecture 6 | Quantum Entanglements, Part 3 (Stanford)
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From playlist Lecture Collection | Quantum Entanglements: Part 3 (Spring 2007)
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Explains how to do determine the direction of the force on a charged particle that is moving through a magnetic field. Due to the magnetic force the particle will travel on a circular path. This is how a mass spectrometer is used to determine the mass of a charged particle. This force i
From playlist Electromagnetic Induction
Magnetic confinement of rotating convection: Implications... by Binod Sreenivasan
Summer school and Discussion Meeting on Buoyancy-driven flows DATE: 12 June 2017 to 20 June 2017 VENUE: Ramanujan Lecture Hall, ICTS, Bengaluru Buoyancy plays a major role in the dynamics of atmosphere and interiors of planets and stars, as well as in engineering applications. This field
From playlist Summer school and Discussion Meeting on Buoyancy-driven flows
The Speed of Light is NOT About Light
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From playlist Physics
Physics - Relativity: Understanding Space, Time & Relativity (6 of 55) What is the Lorentz Factor?
Visit http://ilectureonline.com for more math and science lectures! In this video I will list how the Lorentz factor, gamma, changes as velocity moves from closer and closer to the speed of light (from 0.1c to 0.999999c). The Lorentz factor is a factor that is multiplied to time, mass, an
From playlist PHYSICS 62.1 UNDERSTANDING RELATIVITY & SPACE